TY - JOUR
T1 - The APOKASC catalog
T2 - An asteroseismic and spectroscopic joint survey of targets in the Kepler fields
AU - Pinsonneault, Marc H.
AU - Elsworth, Yvonne
AU - Epstein, Courtney
AU - Hekker, Saskia
AU - Mészáros, Sz
AU - Chaplin, William J.
AU - Johnson, Jennifer A.
AU - García, Rafael A.
AU - Holtzman, Jon
AU - Mathur, Savita
AU - García Pérez, Ana
AU - Silva Aguirre, Victor
AU - Girardi, Léo
AU - Basu, Sarbani
AU - Shetrone, Matthew
AU - Stello, Dennis
AU - Allende Prieto, Carlos
AU - An, Deokkeun
AU - Beck, Paul
AU - Beers, Timothy C.
AU - Bizyaev, Dmitry
AU - Bloemen, Steven
AU - Bovy, Jo
AU - Cunha, Katia
AU - De Ridder, Joris
AU - Frinchaboy, Peter M.
AU - García-Hernández, D. A.
AU - Gilliland, Ronald
AU - Harding, Paul
AU - Hearty, Fred R.
AU - Huber, Daniel
AU - Ivans, Inese
AU - Kallinger, Thomas
AU - Majewski, Steven R.
AU - Metcalfe, Travis S.
AU - Miglio, Andrea
AU - Mosser, Benoit
AU - Muna, Demitri
AU - Nidever, David L.
AU - Schneider, Donald P.
AU - Serenelli, Aldo
AU - Smith, Verne V.
AU - Tayar, Jamie
AU - Zamora, Olga
AU - Zasowski, Gail
N1 - Publisher Copyright:
© 2014. The American Astronomical Society. All rights reserved.
PY - 2015/1/1
Y1 - 2015/1/1
N2 - We present the first APOKASC catalog of spectroscopic and asteroseismic properties of 1916 red giants observed in the Kepler fields. The spectroscopic parameters provided from the Apache Point Observatory Galactic Evolution Experiment project are complemented with asteroseismic surface gravities, masses, radii, and mean densities determined by members of the Kepler Asteroseismology Science Consortium. We assess both random and systematic sources of error and include a discussion of sample selection for giants in the Kepler fields. Total uncertainties in the main catalog properties are of the order of 80 K in T eff, 0.06 dex in [M/H], 0.014 dex in log g, and 12% and 5% in mass and radius, respectively; these reflect a combination of systematic and random errors. Asteroseismic surface gravities are substantially more precise and accurate than spectroscopic ones, and we find good agreement between their mean values and the calibrated spectroscopic surface gravities. There are, however, systematic underlying trends with T eff and log g. Our effective temperature scale is between 0 and 200 K cooler than that expected from the infrared flux method, depending on the adopted extinction map, which provides evidence for a lower value on average than that inferred for the Kepler Input Catalog (KIC). We find a reasonable correspondence between the photometric KIC and spectroscopic APOKASC metallicity scales, with increased dispersion in KIC metallicities as the absolute metal abundance decreases, and offsets in T eff and log g consistent with those derived in the literature. We present mean fitting relations between APOKASC and KIC observables and discuss future prospects, strengths, and limitations of the catalog data.
AB - We present the first APOKASC catalog of spectroscopic and asteroseismic properties of 1916 red giants observed in the Kepler fields. The spectroscopic parameters provided from the Apache Point Observatory Galactic Evolution Experiment project are complemented with asteroseismic surface gravities, masses, radii, and mean densities determined by members of the Kepler Asteroseismology Science Consortium. We assess both random and systematic sources of error and include a discussion of sample selection for giants in the Kepler fields. Total uncertainties in the main catalog properties are of the order of 80 K in T eff, 0.06 dex in [M/H], 0.014 dex in log g, and 12% and 5% in mass and radius, respectively; these reflect a combination of systematic and random errors. Asteroseismic surface gravities are substantially more precise and accurate than spectroscopic ones, and we find good agreement between their mean values and the calibrated spectroscopic surface gravities. There are, however, systematic underlying trends with T eff and log g. Our effective temperature scale is between 0 and 200 K cooler than that expected from the infrared flux method, depending on the adopted extinction map, which provides evidence for a lower value on average than that inferred for the Kepler Input Catalog (KIC). We find a reasonable correspondence between the photometric KIC and spectroscopic APOKASC metallicity scales, with increased dispersion in KIC metallicities as the absolute metal abundance decreases, and offsets in T eff and log g consistent with those derived in the literature. We present mean fitting relations between APOKASC and KIC observables and discuss future prospects, strengths, and limitations of the catalog data.
KW - catalogs
KW - stars: abundances
KW - stars: fundamental parameters
KW - stars: oscillations (including pulsations)
KW - surveys
UR - http://www.scopus.com/inward/record.url?scp=84916209976&partnerID=8YFLogxK
U2 - 10.1088/0067-0049/215/2/19
DO - 10.1088/0067-0049/215/2/19
M3 - Article
AN - SCOPUS:84916209976
SN - 0067-0049
VL - 215
JO - Astrophysical Journal, Supplement Series
JF - Astrophysical Journal, Supplement Series
IS - 2
M1 - 19
ER -